KR20050006170A - Noise reducing device - Google Patents

Abstract

Since the conventional noise reduction device requires two filters and two resonance chambers, the device shape is large and complicated. Therefore, there is a problem that assembly to home appliances is difficult.

The noise reduction device of the present invention is provided in the vicinity of the noise source 5 and is formed on the noise reduction plate 11 and the noise reduction plate 11 which are disposed to face the noise source 5, and converts acoustic energy into thermal energy. A plurality of sound heat conversion holes 12, each sound heat conversion hole 12 is provided on the noise source 5 side, the shrinkage chamber 13 having a first hole width, and on the noise source 5 side. Since the expansion chamber 14 provided on the opposite side and having a second hole width wider than the first hole width is provided, the device configuration is simplified, and the device is light in size and light in weight. As a result, it becomes easy to assemble to home appliances, such as a vacuum cleaner, and it becomes possible to provide the outstanding household appliances with low noise at low cost.

Description

Noise reduction device {NOISE REDUCING DEVICE}

As a conventional noise reduction apparatus, what is described, for example in Unexamined-Japanese-Patent No. 7-334163 is known. In this conventional noise reduction device, a first resonance chamber and a first filter formed between a motor and a first filter are arranged at intervals between the first and second filters at a rear of the motor as a noise source. A second resonance chamber formed between the second filters is provided. The noise generated from the motor can be reduced by the first and second resonance chambers and the first and second filters.

However, since the conventional noise reduction device requires two filters and two resonance chambers, the device shape is large and complicated. Therefore, there is a problem that assembly to home appliances is difficult. Moreover, since many members are required, there also exists a problem that production cost is high.

An object of the present invention is to solve such a problem and to provide a noise reduction device that can effectively reduce noise with a simple configuration.

The present invention relates to a noise reduction device for reducing the output sound pressure level of noise.

1 is a side sectional view showing a cleaner to which a noise reduction device according to a first embodiment is applied.

2 is a perspective view showing the shape of the negative heat conversion hole;

3A and 3B are graphs showing actual results of noise of a motor.

4 is a front view showing the appearance of the noise reduction plate.

FIG. 5A is a cross-sectional view taken along the line A-A of FIG. 4. FIG. B is a cross-sectional view taken along line B-B in FIG. 4.

Fig. 6 is a side sectional view showing the cleaner to which the noise reduction device according to the second embodiment is applied.

Fig. 7 is a side sectional view showing the cleaner to which the noise reduction device according to the third embodiment is applied.

8 is a front view showing the appearance of the noise reduction plate.

FIG. 9A is a cross sectional view taken along the line C-C in FIG. 8; FIG. B is a cross-sectional view taken along the line D-D in FIG. 8.

10 is a cross-sectional view showing an example in which the noise reduction device according to the fourth embodiment is disposed on an air flow path.

FIG. 11 is a cross-sectional view showing an example in which the noise reduction device according to the fifth embodiment is assembled into an air flow path. FIG.

The noise reduction device of the present invention is provided in the vicinity of the noise source, provided with a noise reduction plate disposed opposite the noise source, and formed in the noise reduction plate, and having a plurality of sound heat conversion holes for converting acoustic energy into thermal energy. Each of the sound-heat conversion holes is provided on the noise source side, and has a shrinkage chamber having a first hole width, and an expansion chamber provided on an opposite side of the noise source side and having a second hole width wider than the first hole width. It is characterized by including.

EMBODIMENT OF THE INVENTION Hereinafter, the suitable Example of the noise reduction apparatus concerning this invention is described with reference to an accompanying drawing.

(First embodiment)

1 is a side sectional view showing a cleaner to which the noise reduction device 10 according to the first embodiment is applied. As shown in the figure, the vacuum cleaner 1 includes an intake port 3 with a hose 2 for sucking in dust, a dust collecting chamber 4 provided at the rear of the intake port 3 and collecting dust; And a motor 5 provided at the rear of the dust collecting chamber 4 and generating an air stream for sucking in dust, and a noise disposed at the rear of the motor 5 to generate noise from the motor 5. The noise reduction device 10 and the exhaust port 6 which are arrange | positioned behind the noise reduction device 10, and discharge the airflow which passed the noise reduction device 10 are provided.

A paper bag 7 is attached to the dust collecting chamber 4, and the dust sucked through the intake port 3 is collected in the paper bag 7. In addition, the motor 5 is a high speed rotation of 3 to 40,000 revolutions in order to perform the suction operation of the cleaner 1, the rotation operation of the motor 5 is an operation switch unit (not shown) provided in the hose (2) It is controlled to move according to the operation mode of).

The noise reduction device 10 includes a plurality of sound heat conversion holes 12 formed in the noise reduction plate 11 and the noise reduction plate 11 that are disposed to face the motor 5, and convert sound energy into thermal energy. Doing. Since these negative heat conversion holes 12 are through holes, the air flow generated by the drive of the motor 5 passes through the negative heat conversion holes 12 and reaches the exhaust port 6. In addition, each negative heat conversion hole 12 has a cylindrical contraction chamber 13 provided on the motor 5 side and a cylindrical expansion chamber 14 provided on the exhaust port 6 side (opposite side of the motor 5 side). Equipped with. Here, it is comprised so that the width | variety of the hole width (second hole width) of the expansion chamber 14 may become wide compared with the hole width (1st hole width) of the shrinkage chamber 13 here.

In addition, the shrinkage chamber 13 and the expansion chamber 14 are not limited to a columnar shape, but may be a columnar shape, a truncated cone shape, and a pyramid shape.

Next, the operation of this embodiment will be described. When the user turns on the operation switch part (not shown) provided in the hose 2, and drives the motor 5, the fan attached to the motor 5 rotates, and the airflow inside the cleaner 1 Occurs. The dust sucked by the hose 2 reaches the dust collecting chamber 4 in this air flow and is collected in the paper bag 7 attached to the dust collecting chamber 4. The air flow that has escaped the fine gap of the paper bag 7 reaches the noise reduction plate 11 of the noise reduction device 10. In addition, the noise generated by the motor 5 also reaches the noise reduction plate 11 as sound waves. The acoustic energy of the noise is converted into thermal energy in the sound heat conversion hole 12 formed in the noise reduction plate 11, and the output sound pressure level of the noise is reduced. In addition, the air flow reaching the noise reduction plate 11 exits the sound heat conversion hole 12 and is discharged from the exhaust port 6.

In the sound heat conversion hole 12, it is possible to convert sound energy of noise into heat energy based on the following principle. That is, when sound waves of noise enter the sound conversion hole 12, sound waves are first tightened in the contraction chamber 13. After that, the sound wave enters the expansion chamber 14, and since the hole width of the expansion chamber 14 is wider than the hole width of the contraction chamber 13, the sound wave once tightened expands at once. By this expansion, the acoustic energy of the noise is converted into thermal energy. As a result, the output sound pressure level of noise can be effectively reduced. Here, the noise which can be reduced by the sound thermal conversion hole 12 is limited to the sound of a predetermined frequency band. The frequency band which can be reduced is specified by the shape of the sound heat conversion hole 12.

As shown in FIG. 2, the opening area of the negative heat conversion hole 12 is S ₀ , the hole width of the shrinkage chamber 13 is d ₀ , the depth of the shrinkage chamber 13 is L ₀ , and the expansion chamber 14 is formed. If the volume is V ₁ and the luminous flux is c, the frequency f ₀ that can be reduced is

f ₀ = (c / 2π) (S ₀ / (V ₁ (L ₀ + 0.82 / d ₀ ))) ^1/2

It becomes

Here, the noise generated from the noise source such as the motor 5 is composed of random sounds and peak sounds, and in the aural sense, the random sounds are separated from the peak sounds and are heard as annoying noises. Thus, by configuring the sound-heat conversion hole 12 in the dimension derived from the above expression, by targeting the frequency of the peak sound included in the noise, the peak sound can be removed from the noise, and the sound quality of the noise is effectively improved.

The peak sound of the motor 5 is the sound of the blade passing frequency of the rotating fan. The frequency f is found by f = nz (n: motor rotation speed, z: number of blades). As a specification of the motor 5, assuming that the motor rotation frequency is 600 Hz and the number of the blades is eight, the wing pass frequency sound (that is, the peak sound) is 480 OHz. The peak sound also occurs at 96OOHz, which is twice the frequency of 480 OHz. 3A is a result of measuring the noise of the motor 5. Also in this measured value, it turns out that there are peak sounds at 4800 Hz and 960 OHz.

In order to reduce these two peak sounds, in this embodiment, as shown in Figs. 4 and 5, two types of sound-heat conversion holes 12a and 12b having different hole widths are provided. The negative heat conversion hole 12a has a hole width of the shrinkage chamber 13a of 3.1 mm, a depth of the shrinkage chamber 13a of 2.1 mm, a hole width of the expansion chamber 14a of 12.0 mm, and a depth of the expansion chamber 14a. 2.1 mm. Applying these dimensions to the above equation, f ₀ is about 480 OHz. Therefore, the acoustic energy of the peak sound of 48OHz is converted into thermal energy by the sound-heat conversion hole 12a, and the peak sound of 480OHz is effectively removed.

In addition, as for the negative heat conversion hole 12b, the hole width of the shrinkage chamber 13b is 3.2 mm, the depth of the shrinkage chamber 13b is 2.1 mm, the hole width of the expansion chamber 14b is 6.Omm, and the expansion chamber 14b. ) Has a depth of 2.1 mm. Applying these dimensions to the above equation, f ₀ is about 9600 Hz. Therefore, the acoustic energy of the peak sound of 96OHz is converted into thermal energy by the sound heat conversion hole 12b, and the peak sound of 960OHz is effectively removed.

As described above, two peak sounds of 4800 Hz and 9600 Hz can be removed by the two kinds of sound-heat conversion holes 12a and 12b provided in the noise reduction board 11. As a result, as shown by the measured value of B of FIG. 3, the gentle noise characteristic without peak sound was obtained, and the sound quality of the noise was large and improved.

The negative heat conversion holes 12 having different hole widths are not limited to two types but may be three or more types. In this case, three or more peak sounds can be removed.

As described above in detail, in the present embodiment, since the noise reduction device 10 is constituted by the noise reduction plate 11 and the sound heat conversion hole 12, the device configuration is simplified, and the weight and size of the device are realized. do. As a result, it becomes easy to assemble to home appliances, such as a vacuum cleaner, and it becomes possible to provide the outstanding household appliances with low noise at low cost.

(Second embodiment)

Next, a noise reduction apparatus according to the second embodiment will be described. 6 is a side sectional view showing a cleaner to which the noise reduction device 20 according to the second embodiment is applied. The second embodiment differs from the first embodiment shown in FIG. 1 in that the noise reduction plate 11 is arranged in a box shape surrounding the motor 5. Other configurations are the same or equivalent to those in the first embodiment. In addition, about the component part same or equivalent to 1st Embodiment, the same code | symbol is attached | subjected and the description is abbreviate | omitted.

The noise reduction device 20 of the present embodiment surrounds the motor 5 by five noise reduction plates 11 arranged around the motor 5 (upward, downward, leftward, rightward, rearward). For this reason, a sound-proof room is comprised between the noise reduction board 11 and the motor 5, and the noise which the motor 5 generate | occur | produces propagates in the sound-proof room, and the noise reduction board 11 is carried out. In the formed plurality of heat conversion holes 12, the peak sound of the noise is removed (i.e., the acoustic energy of the peak sound is converted into thermal energy).

In addition, the air flow generated in the motor 5 exits the negative heat conversion hole 12 and is discharged from the exhaust port 6.

As a result, the sound quality of the noise generated by the motor 5 is improved, and the output sound pressure level of the noise can be effectively reduced. In particular, in the present embodiment, since the sound-absorbing chamber, which is a closed space, is formed between the noise reduction plate 11 and the motor 5, sound waves of noise generated from the motor 5 are not leaked out. Throughout the room, the peak sound can be reliably removed from any one of the plurality of sound heat conversion holes 12 provided in the noise reduction plate 11.

As described above, the present embodiment has a simple configuration that surrounds the periphery of the motor 5 with the noise reduction plate 11, so that the noise reduction device 20 can be assembled if there is a much larger space than the motor 5. Can be. As a result, the assembly of the noise reduction device 20 into the household electrical appliances, such as a vacuum cleaner, becomes easy, and it becomes possible to provide the excellent household appliances with low noise at low cost.

The box shape formed of the plurality of noise reduction plates 11 is not limited to a rectangular parallelepiped shape, but may be a cylindrical shape or a hemispherical shape. The noise reduction plate 11 may also be disposed on the front surface of the motor 5. In this case, six surrounding surfaces of the motor 5 are covered with the noise reduction plate 11, and the noise reduction effect is further improved.

(Third Embodiment)

Next, a noise reduction apparatus according to the third embodiment will be described. FIG. 7 is a side sectional view showing the cleaner to which the noise reduction device 30 according to the third embodiment is applied. The third embodiment differs from the first embodiment shown in FIG. 1 in that the noise reduction plate 11 is arranged in a box shape surrounding the motor 5, and the sound heat conversion formed in the noise reduction plate 11 is performed. The hole 12 is a bottomed hole, and the sponge-like absorption layer 31 is provided in the outer surface of the noise reduction board 11. Other configurations are the same or equivalent to those in the first embodiment. In addition, the same code | symbol is attached | subjected about the component part same or equivalent to 1st Embodiment, and the description is abbreviate | omitted.

The noise reduction device 30 of the present embodiment surrounds the motor 5 by five noise reduction plates 11 arranged around the motor 5 (upward, downward, leftward, rightward, rearward). For this reason, a sound absorption chamber is comprised between the noise reduction board 11 and the motor 5, and the sound wave of the noise which the motor 5 generate | occur | produces enters the sound heat conversion hole 12 through the inside of the sound absorption chamber.

In addition, the air vent 32 is provided in the noise reduction plate 11 disposed below the motor 5, and the air flow generated by the motor 5 exits the air vent 32 and is discharged from the exhaust port 6.

As shown in FIG. 8 and FIG. 9, in the plurality of sound heat conversion holes 12 formed in the noise reduction plate 11, two types of sound heat conversion holes 12a and 12b having different hole widths exist. As described above, the negative heat conversion hole 12a can remove the peak sound of 4800 Hz, and the negative heat conversion hole 12b can remove the peak sound of 9600 Hz. Therefore, the two types of peak sound are reliably removed (that is, the acoustic energy of the peak sound is converted into thermal energy) by entering the sound heat conversion holes 12a and 12b. . As a result, the sound quality of the noise generated by the motor 5 is improved, and the output sound pressure level of the noise can be effectively reduced.

In particular, in this embodiment, since the sound-absorbing chamber which is a sealed space is formed between the noise reduction plate 11 and the motor 5, the sound wave of the noise which generate | occur | produces from the motor 5 does not leak out, The inside of the sound-proofing chamber is propagated, and the peak sound can be reliably removed from any one of the plurality of sound-heat conversion holes 12 provided in the noise reduction plate 11. In addition, the vibration of the noise reduction plate 11 generated when the sound wave of the noise propagates through the interior of the sound-absorbing chamber is reliably absorbed by the suction layer 31 in the sponge state. For this reason, the radiation of sound to the outside by the vibration of the noise reduction board 11 can be suppressed effectively.

As described above, in the present embodiment, since the noise reduction plate 11 is surrounded by the noise reduction plate 11, the noise reduction device 30 is provided as long as there is a much larger space than the motor 5. Can be assembled. As a result, the assembly of the noise reduction device 30 into the household electrical appliances such as a cleaner becomes easy, and it becomes possible to provide excellent household appliances with low noise at low cost.

The box shape formed of the plurality of noise reduction plates 11 is not limited to a rectangular parallelepiped shape, but may be a cylindrical shape or a hemispherical shape. The noise reduction plate 11 may also be disposed on the front surface of the motor 5. In this case, six surrounding surfaces of the motor 5 are covered with the noise reduction plate 11, and the noise reduction effect is further improved.

(Fourth embodiment)

Next, a noise reduction apparatus according to the fourth embodiment will be described. FIG. 10 is a sectional view showing an example in which the noise reduction device 40 according to the fourth embodiment is disposed on an air path 41 of an air stream. In addition, the same code | symbol is attached | subjected about the component part same or equivalent to 1st Embodiment, and the description is abbreviate | omitted.

As shown in the figure, the noise reduction device 40 is formed on the noise reduction plate 11 and the noise reduction plate 11 which are disposed to face the air flow, and a plurality of noise energy conversion units convert the acoustic energy into thermal energy. The negative heat conversion hole 12 is provided. Each negative heat conversion hole 12 is provided with the contraction chamber 13 provided in the inflow side of the airflow, and the expansion chamber 14 provided in the emission side of the airflow. Here, each negative heat conversion hole 12 is a through hole, and is comprised so that the hole width of the expansion chamber 14 may become wider than the hole width of the shrinkage chamber 13.

Since the noise reduction apparatus 40 is comprised as mentioned above, the sound wave of the noise superimposed on the airflow enters each sound-heat conversion hole 12 formed in the noise reduction board 11, and the peak sound of a noise is removed. (I.e., the acoustic energy of the peak sound is converted into thermal energy). As a result, the sound quality of the noise superimposed on the airflow is improved, and the output sound pressure level of the noise can be effectively reduced.

As described above, in the present embodiment, since the noise reduction device 40 is constituted by the noise reduction plate 11 and the sound heat conversion hole 12, the device configuration is simplified, and the compact and lightweight device is realized. As a result, the assembly of the apparatus to a hose or the like of a cleaner becomes easy, and it is possible to provide excellent home appliances with low noise at low cost.

(Fifth Embodiment)

Next, a noise reduction apparatus according to the fifth embodiment will be described. 11 is a cross-sectional view showing an example of assembling the noise reduction device 50 according to the fifth embodiment to the air passage 51 of the air stream. In addition, the same code | symbol is attached | subjected about the component part same or equivalent to 1st Embodiment, and the description is abbreviate | omitted.

As shown in the figure, the noise reduction device 50 is formed on the noise reduction wall 52 constituting at least a part of the air flow path 51 of the air flow and the noise reduction wall 52, and the acoustic energy is thermal energy. A plurality of negative heat conversion holes 12 to be converted into. Each negative heat conversion hole 12 is provided with the contraction chamber 13 provided in the inflow side of the airflow, and the expansion chamber 14 provided in the emission side of the airflow. Here, each negative heat conversion hole 12 is a bottomed hole, and is comprised so that the hole width of the expansion chamber 14 may be wider than the hole width of the shrinkage chamber 13.

Since the noise reduction device 50 is comprised as mentioned above, the sound wave of the noise superimposed on the airflow enters each sound-heat conversion hole 12 formed in the noise reduction wall 52, and the peak sound of a noise is removed. (I.e., the acoustic energy of the peak sound is converted into thermal energy). As a result, the sound quality of the noise superimposed on the airflow is improved, and the output sound pressure level of the noise can be effectively reduced.

As described above, in the present embodiment, since the noise reduction device 50 is constituted by the noise reduction wall 52 and the sound heat conversion hole 12, the device configuration is simplified, and the weight reduction of the device is realized. As a result, the assembly of the apparatus to a hose or the like of a cleaner becomes easy, and it is possible to provide excellent home appliances with low noise at low cost.

In addition, this invention is not limited to the said Example, A various change is possible in the range which does not deviate from the meaning of this invention. In addition, in the above embodiment, an example in which the present invention is applied to a cleaner is shown, but the present invention is not limited to a cleaner, but can be applied to any device that generates sound, for example, a ventilation fan or a cleaner.

As described above, the noise reduction device according to the present invention can be applied to any device that generates sound, such as a ventilation fan or a vacuum cleaner.

Claims (8)

A noise reduction plate provided in the vicinity of the noise source and disposed to face the noise source; It is formed in the noise reduction plate, and provided with a plurality of sound heat conversion holes for converting sound energy into thermal energy, Each of the sound-heat conversion holes is provided on the noise source side, and has a shrinkage chamber having a first hole width, and an expansion chamber provided on an opposite side of the noise source side and having a second hole width wider than the first hole width. Noise reduction device characterized in that it comprises. The method of claim 1, Each of the sound heat conversion holes is a noise reduction device, characterized in that the through hole for passing the air flow generated from the noise source. The method according to claim 1 or 2, The plurality of sound-heat conversion holes are classified into at least two types of groups having different hole widths, and the sound-heat conversion holes of each group convert sound energy of peak sounds of different frequency bands included in noise generated from the noise source into thermal energy. Noise reduction device characterized in that. The method of claim 3, wherein The negative heat conversion hole has a shape of opening area S ₀ , a hole width of the shrinkage chamber d ₀ , a depth of the shrinkage chamber L ₀ , a volume of the expansion chamber V ₁ , a light flux c, and a negative peak. If we set the frequency to f ₀ , f ₀ = (c / 2π) (S ₀ / (V ₁ (L ₀ + 0.82 / d ₀ ))) ^1/2 Noise reduction device characterized in that having a relationship. The method according to any one of claims 1 to 4, The noise reduction plate is arranged in a box shape surrounding the noise source. The method of claim 5, Each said negative heat conversion hole is a bottomed hole, The noise reduction device provided with the sponge sound absorption layer in the outer surface of the said noise reduction board. A noise reduction plate provided on the air path of the air stream and disposed to face the air stream; It is formed in the noise reduction plate, and provided with a plurality of sound heat conversion holes for converting sound energy into thermal energy, Each negative-heat conversion hole is provided on the incidence side of the airflow, has a shrinkage chamber having a first hole width, and a second hole width provided on the exit side of the airflow, and wider than the first hole width. And an expansion chamber having a noise reduction device. A noise reduction wall constituting at least a part of the air flow path of the air flow, It is provided in the noise reduction wall, and has a plurality of sound heat conversion holes for converting sound energy into heat energy, Each of the negative heat conversion holes is provided on the air flow side, and includes a shrinkage chamber having a first hole width, and an expansion chamber provided on an opposite side of the air flow side and having a second hole width wider than the first hole width. Noise reduction device characterized in that it comprises.